The discussion centers around the relationship between vapor density (vd) and density (d) in the context of the ideal gas law, expressed as Pv = nRT. Participants debate whether the correct expression should be 'vd ∝ d' or 'vd ∝ d/2', ultimately concluding that both expressions are valid due to the nature of proportionality constants. The distinction between vapor and gas is clarified, with vapor being a thermodynamic state where two phases coexist, while gas refers to a single defined state. The conversation highlights the complexities of terminology in thermodynamics and the importance of understanding the underlying principles.
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d stands for densityBorek said:And what is d? Looks to me like it is vapor density as well, so you are proving that something is directly proportional to itself.
When quantities have the same relative size. In other words, they have the same ratio.phyzguy said:Do you understand the meaning of the ∝ symbol ("proportional to")?
HCverma said:d stands for density
HCverma said:When quantities have the same relative size. In other words, they have the same ratio.
Example:
A rope's length and weight are in proportion. When 20m of rope weighs 1kg, then:
• 40m of that rope weighs 2kg
• 200m of that rope weighs 10kg
etc.
Density of the gas.Borek said:Density of what? Sea water? Gold? Vapor of neodymium?
Yes. Then we should write 'vd ∝ d / 2' but the book shows ''vd ∝ d'? That's my question.phyzguy said:So if X is proportional to Y, then isn't X also proportional to Y/2? or 47*Y? or Y times any constant?
HCverma said:Density of the gas.
HCverma said:Then we should write 'vd ∝ d / 2' but the book shows ''vd ∝ d'?
I think there is no difference between vapor and gas. So their densities should be the same.Borek said:And how is the density of the gas different from the density of the vapor? Do you understand it is the same thing and saying vd ∝ d makes the same sense as saying 1 ∝ 1?
It would be very helpful if you provide an example with respect to your explanation above.Borek said:Apparently you have not understood a word of what @phyzguy wrote :(
If X is proportional to Y times any constant, it actually doesn't matter if Y is multiplied or divided by anything - the proportionality still holds, just the constant changes.
HCverma said:It would be very helpful if you provide an example with respect to your explanation above.
Then can I write vd ∝ 1/2. d (where 1/2 is a constant)?phyzguy said:X ∝ Y means that we can write X = λ * Y, where λ is some constant. So the expression vd ∝ d and vd ∝ d/2 mean the same thing. Only the value of the proportionality constant λ is different. Because of this, we typically don't include any constant when writing a proportionality. Since vd ∝ d, vd ∝ d/2, and vd ∝ 13.78234 * d all mean the same thing, we typically just write the simplest expression.
Borek said:And how is the density of the gas different from the density of the vapor?
HCverma said:Then can I write vd ∝ 1/2. d (where 1/2 is a constant)?
Yes, but why would you do this? If vd ∝ d, then any of the following would also be correct (but not very useful).HCverma said:Then can I write vd ∝ 1/2. d ?
It's obvious that 1/2 is a constant -- you don't need to say this.HCverma said:(where 1/2 is a constant)
HCverma said:I think there is no difference between vapor and gas
e-pie said:HCverma said:I think there is no difference between vapor and gas.
You need to clear your basics then the ideal gas equation.
e-pie said:A gas refers to a substance that has a single defined thermodynamic state at room temperature whereas a vapor refers to a substance that is a mixture of two phases at room temperature, namely gaseous and liquid phase.
Borek said:where both steam and vapor can be white and visible because of the droplets present
Borek said:The nomenclature is clumsy
e-pie said:Vapour is a thermodynamic state where two phases can coexist.
In physics a vapor (American) or vapour (British and Canadian) is a substance in the gas phase at a temperature lower than its critical temperature
e-pie said:Which ones?